The present invention relates to electroacoustic field, particularly to an electroacoustic transducer.
In the prior art, an electroacoustic transducer comprises a diaphragm and a voice coil combined to one side of the diaphragm, and also comprises an electric connector for electrically connecting internal and external circuitry of the electroacoustic transducer, wherein the voice coil comprises two voice coil leads which are electrically connected with two electrodes of the electric connector through spot welding, and the electric connector is electrically connected with the external circuit as well to control the electric signals in the voice coil through the electric signals in final product.
Typically, the leads of the voice coil are required to have a certain extension to be electrically connected to the electric connector, however, this structure of the electroacoustic transducer has a disadvantage that the wire of the leads tends to break during the vibration of the voice coil causing failure of the product.
Thus, there is a demand for improving the electroacoustic transducer of such a structure to eliminate the above disadvantage.
In order to solve the above technical problem, the present invention provides an electroacoustic transducer which can be used for preventing the disadvantages of disconnection of the leads of the voice coil due to a long extension of the leads and improving the stability of the product.
In order to achieve the above objective, the present invention provides an electroacoustic transducer comprising a diaphragm body part and a voice coil which is combined to one side of the diaphragm body part, wherein the diaphragm body part comprises non-conductive base material layers and a conductive metal layer, the base material layers comprise at least two layers, and the metal layer is interposed between any two neighbouring layers of the base material layers.
The metal layer is provided with first conductive terminals which are conductively combined with the voice coil, and the base material layers between the metal layer and the voice coil are provided with open holes for allowing the passage of the first conductive terminals which are formed by removal of material.
The central part of the diaphragm body part is combined with a rigid reinforcing layer, and the reinforcing layer is combined to one side of the diaphragm body part away from the voice coil, and covers the region where the first conductive terminals are located.
In addition, it is preferable that the metal layer is provided with second conductive terminals extended from the base material layers, and the second conductive terminals are located at the edge of the diaphragm body part.
In addition, it is preferable that the first conductive terminals and the second conductive terminals are electroplated with metallic protective layers.
In addition, it is preferable that the electroacoustic transducer further comprises a shell for accommodating and fixing the diaphragm body part, and an electric connector conductively combined with the second conductive terminals is arranged at positions on the shell corresponding to the second conductive terminals.
In addition, it is preferable that the material of each of the base material layers is selected from one or more of PEEK, PEN, PEI, PAR, PET, PPS and PES.
In addition, it is preferable that the metal layer is copper foil or copper metal layer formed by electroplating; and the metallic protective layer is tin metal layer.
In addition, it is preferable that the diaphragm body part comprises a dome portion located at the central part thereof, a surround portion located at the edge thereof, and a joint portion located at the edge of the surround portion for combining with the shell; the metal layer comprises a first metal layer distributed on the dome portion, a second metal layer distributed on the joint portion, and a third metal layer distributed on the surround portion for connecting the first metal layer with the second metal layer; wherein each of the first and second metal layers is provided with two separate parts, and the respective separate parts of the first metal layer and the second metal layer, and the third metal layer form two separate electrodes.
In addition, it is preferable that the first and second metal layers have an annular structure, and each of the first and second metal layers is provided with cutoff portions for separating each of the first metal layer and the second metal layer into two parts separately; and the third metal layer has a strip-shaped structure.
In addition, it is preferable that the diaphragm has a rectangular structure, and the third metal layer is distributed at two long sides of the rectangular diaphragm.
In addition, it is preferable that the third metal layer is a structure of three strips arranged in parallel.
In contrast to conventional structure, the electroacoustic transducer of the above structure can prevent the disadvantage of disconnection of the lead of the voice coil due to a long extension during the operation process, improving the stability of the product.
The above features and technical advantages will become more apparent and easily understood upon reading the description of the invention in connection with the following drawings.
The present invention is described in details in connection with the accompanying drawings and particular embodiments.
As illustrated in
The diaphragm 1 comprises a flexible diaphragm body part 12 and a rigid reinforcing part 11 which is combined at the central part of the diaphragm body part 12 to improve the high frequency characteristics of the diaphragm 1. The diaphragm body part 12 is formed of non-conductive base material layers and a conductive metal layer, the base material layers comprise at least two layers, and the metal layer is combined between any two neighbouring layers of the base material layers to prevent the metal layer 122 from being short circuited with other components. Preferably, the material of each of the base material layers is selected from one or more of PEEK, PEN, PEI, PAR, PET, PPS, and PES.
As illustrated in
Furthermore, as illustrated in
Preferably, the first metal layer 122a has a rectangular looped structure, located on the edge of the dome portion of the diaphragm body part 12, close to the surround portion, and is electrically connected with the voice coil 2. In the present invention, in order to form two separate electrodes electrically connected with two leads of the voice coil 2 respectively, two cutoff portions 123 are formed at two short sides of the first metal layer 122a having a rectangular looped structure respectively, no metal layer is arranged at the cutoff portions, thus the first metal layer 122a forms two parts acting as two separate electrodes, as shown in
In addition, first conductive terminals 13a electrically connected with the looped first metal layer 122a are provided at the inner side of the first metal layer 122a as well, and the number of the first conductive terminals 13a is at least two, so as to be electrically connected with two leads (leading-out terminals) of the voice coil 2. As illustrated in
Preferably, the second metal layer 122b is located at the position where the edge of the diaphragm body part 1 is combined with the shell 3, thereby reducing the effect of the metal layer 122 on the hardness of the diaphragm 1. Wherein, the second metal layer 122b has a rectangular looped structure. In order to form two separate electrodes, cutoff portions 123 are arranged at two short sides of the rectangular second metal layer 122b, and no metal layer is arranged at the cutoff portions 123, as shown in
Preferably, the first conductive terminals 13a and the second conductive terminals 13b are provided thereon with metallic protective layers formed by electroplating, preferably, tin metal layers with good weldability and ductility.
Preferably, the third metal layer 122c has a strip-shaped structure located at two long sides of the rectangular first metal layer 122a and the rectangular second metal layer 122b, and connects one electrode of the first metal layer 122a with a corresponding electrode of the second metal layer 122b, and connects the other electrode of the first metal layer 122a with the other electrode of the second metal layer 122b, respectively. The structure of the third metal layer 122c on the long sides can improve the strength of the long sides of the rectangular diaphragm 1, improving acoustic performance of the diaphragm 1. Furthermore, the third metal layer 122c is a structure of three strips arranged in parallel, which can improve the stability of electric connection.
With such a structure where the conductive metal layer 122 is arranged inside the diaphragm body part 12, on the diaphragm body part 12 are arranged the first conductive terminals 13a electrically combined with the voice coil 2 and the second conductive terminals 13b electrically combined with final product or the electric connector 4, electrical connection can be achieved without a long extension from the leads of the voice coil 2, thereby avoiding faults of leads of the voice coil 2 such as disconnection during operation, and improving the stability of the product; and this type of structure may achieve connections with internal and external electric signals directly through the conductive terminals on the diaphragm 1 thus simplifying the manufacturing process of the product and improving the production efficiency of the product.
With the above teaching of the present invention, other improvements and variants can be made by those skilled in the art based on the above embodiments which fall into the scope of the present invention. It will be understood by those skilled in the art that the above specific description aims at providing a better understanding of the present invention, and the scope of the present invention is defined by the claims and their equivalents.
Number | Date | Country | Kind |
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201210481998.2 | Nov 2012 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2013/087609 | 11/21/2013 | WO | 00 |